Vertical slurry pump manufacturer and supplier by CNSME: Discover CNSME centrifugal slurry pump manufacturer’s heavy duty and extreme duty horizontal slurry pumps, which are designed to meet the toughest demands of industrial slurry handling. Ideal for mining, dredging, and power plants, these pumps are engineered with a horizontal configuration, offering enhanced stability during operation. Equipped with a high – efficiency impeller, they can achieve a remarkable flow rate up to 5000 m³/h, ensuring continuous and efficient transfer of abrasive and corrosive slurries. Made from wear – resistant materials, our pumps reduce maintenance costs and downtime. Count on us for reliable, durable, and high – performance horizontal slurry pump solutions that drive your business forward. Read additional information on slurry pump parts.
The sealing system of CNSME pump is made of corrosion-resistant rubber and polyurethane, which provides excellent sealing performance and effectively prevents slurry leakage. Using a variety of methods such as packing sealing, mechanical sealing and expeller sealing, it can flexibly respond to different working conditions and ensure the normal operation sealing effect of the pump. The sealing system reduces leakage and slurry loss,reduces costs and prolongs the consumption of efficient frame plate and components. At the same time, we can customize seals according to customer needs to adapt to high temperature, high pressure and sedimentary media,and we have three sealing methods.
The adjustment and tightening parts, sealing and washer parts, bearings and sleeve parts of the slurry pump are the core links to ensure the efficient and stable operation of the pump. Fasteners ensure the stability of the frame plate structure, seals prevent slurry leakage and protect internal components, bearing and shaft sleeves supports rotating parts to ensure smooth operation and long service life. These components complement each other and are indispensable. Perfect cooperation can ensure the reliability and high efficiency of the slurry pump under high load conditions.
Parameter design: According to the flow rate, head and other technical parameters, design a slurry pump program to meet the requirements. Software simulation: Use fluid analysis software to simulate the operation of the pump, optimize the impeller design, flow channel structure, in order to improve the efficiency and durability of the pump. Material Selection: Determine the material of pump body, impeller and other wet-end parts, such as high chromium alloy, wear-resistant rubber, etc., to meet the wear and corrosion resistance needs of different working conditions. Mould Design – According to the design scheme, make the molds of pump body, impeller, throatbush and other key parts. Precision Casting – Adopt precision casting process to ensure accurate size of parts, uniform material and avoid defects and internal stress. Find additional information at https://www.cnsmepump.com/.
The working principle of a slurry pump is that, centrifugal force will be generated through impeller rotating and with which medium containing solid particles can be absorbed into the pump casing chamber, and then be pushed to the pump discharge via impeller. During the transportation process, slurry pump needs to bear the erosion and wear from bigger solids, so its impeller and casing should have better abrasion and corrosion resistance. Froth pumps are mainly used for applications where froth needs to be transported, such as forth fire fighting system, froth flotation equipment etc. In this applications, froth pumps can guarantee the foam’s stability and completeness so as to make sure the foam will have good fire fighting and flotation effects.
Process requirements and operation specifications – Flowrate: Determin the required flowrate based on the needs of the transferring system. Flowrate is the volume being transferred per unit time, and is usually expressed in cubic per hour (m3/hr) or liter per minute (L/min); Head: Head refers to the liquid pressure that a slurry pump can provide, and is usually expressed in meter (m). Resistance from the transporting system and the lifting height of the liquid should be considered when determining the head; Transferring distance and height: With the increase of the transporting distance and height, the pump’s consumption power and discharge requirements will increase accordingly.
